JP3699491B2 - Trigger switch - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a trigger switch that is frequently used in electrical equipment, in particular, power tools.
[0002]
[Prior art]
A trigger switch often used in an electric tool is an insulating housing that includes a movable contact plate having a movable contact and a plurality of conductive plates, a trigger button at one end, and is slidably held in the insulating housing. The movable contact plate, which is composed of a trigger lever that is arranged so as to freely move the seesaw on a support piece provided on the conductive plate, performs the seesaw movement along with the sliding operation of the lever, so that the movable contact and the other conductive plate It can be opened and closed with a fixed contact provided in the.
[0003]
Conventionally, a conductive plate is assembled to the chassis of the chassis and the cover constituting the insulating housing and a movable contact plate is arranged, and then assembled by attaching a lever and attaching the cover to the chassis. The casing is composed of two chassis and a cover, a conductive plate is assembled to the first chassis and a movable contact plate is arranged, a lever and a conductive plate are assembled to the second chassis, and both chassis are overlapped. It was assembled with a cover attached.
[0004]
[Problems to be solved by the invention]
In the former conventional example, the mounting direction of the movable contact plate and the lever to the chassis is different from the mounting direction of the conductive plate and other parts to the chassis, which has a problem that the assemblability is poor. . Even in the latter conventional example having a plurality of chassis, the mounting directions of the parts to each chassis are disjoint, and further, it takes time to assemble when integrating a plurality of chassis by connecting the covers and attaching them. There is also a problem that the assemblability is poor.
[0005]
If other switches for polarity switching, etc., or a circuit for controlling the speed of the motor are incorporated in the insulated housing, the number of parts to be incorporated increases, so that a better assembly is required. Yes.
The present invention has been made in view of these points, and an object of the present invention is to provide a trigger switch that has excellent assemblability and can be reduced in size and price.
[0006]
[Means for Solving the Problems]
Thus, the present invention provides a contact for turning on and off a load in an insulating casing comprising a box-like chassis having one side open and a cover attached to the opening of the chassis and closing the opening. A contact for speed control ON / OFF, a variable resistor for speed control, and a trigger lever are arranged, and both the contacts are turned on and off by sliding operation of the trigger lever provided with a trigger button at one end located outside the insulating casing. It is a trigger switch that changes the resistance value of the variable resistor, and a plurality of conductive plates are attached to the chassis of the insulating housing. The contact for turning on / off the load and the contact for turning on / off the speed control are as follows: A plurality of fixed contacts provided on the conductive plate, respectively, and two movable contact plates supported in a swingable manner. The variable resistor for speed control is formed by a pattern on the substrate of the speed control circuit arranged in the insulating housing and a contact spring that is in sliding contact with this pattern. In the chassis, a support piece provided on a conductive plate different from the conductive plate provided with the fixed contact is arranged, and the fixed contact and the support piece are arranged inside the side surface opposite to the side surface where the chassis is open. The two movable contact plates disposed in the chassis from the opening surface of the chassis are arranged in an arrangement section partitioned by a partition that rises from the inside of the side surface on which the fixed contact of the chassis is located. Inside the body, they are arranged in parallel in a direction parallel to the opening surface, and are supported by the support pieces so as to be swingable in a direction orthogonal to the opening surface of the chassis. A trigger lever that is incorporated from the opening surface of the chassis to cover the two movable contact plates and is positioned between the movable contact plate and the cover and is slidable in a direction along the opening surface of the chassis. The movable contact plate side is provided with a drive unit for driving the swing of the two movable contact plates, and the trigger lever is disposed on the side different from the side where the drive unit is provided and in an insulating housing. The main feature is that the contact spring is provided on the surface of the fixed speed control circuit facing the pattern on the board, and the polarity switch is provided with a changeover switch for polarity reversal. A switching lever attached to the housing and slidable in the same direction as the trigger lever. Along with the sliding, the switching lever is provided on a conductive plate for polarity switching. A sliding body for switching the switching contact and a cam for converting the rotation of the switching lever into a slide of the sliding body, and the sliding body and the cam are located at positions different from the movable contact plate when viewed from the opening surface in the chassis. The chassis has another feature in that the opening surface of the chassis is a surface for assembling the sliding body and the cam.
[0007]
[Action]
According to the present invention, the assembly of the two movable contact plates and the assembly of the trigger lever can be performed from the opening surface side of the chassis, and the assembling work is simplified.
[0008]
If the sliding body and cam in the changeover switch can be incorporated from the same direction, the changeover switch can be easily incorporated.
[0009]
【Example】
Hereinafter, the present invention will be described in detail with reference to the illustrated embodiment. The trigger switch in the illustrated example is used for controlling a motor that is a power source of an electric tool, and a changeover switch for switching the rotation direction of the motor, As shown in FIGS. 2 and 3, a switching lever 4 is disposed on the upper surface of the insulating housing 1, and a trigger lever 2 protruding from the front side is provided. A trigger button 20 is attached to the tip of the terminal, and connection terminals 18 and 19 for connection between a controlled device (motor) and a power source (battery) are provided on the upper surface and the lower surface, respectively. In the figure, reference numeral 70 denotes a battery connection fitting.
[0010]
As shown in FIG. 4, the insulating housing 1 here includes a box-shaped chassis 10 whose one side surface is open and a cover 11 that covers the opening surface of the chassis 10. As shown in the drawing, a plurality of conductive plates 12 are embedded by integral molding in a portion serving as the other side surface, and the connection terminals 18 and 19 are formed as a part of these conductive plates 12. Further, when a part of the conductive plate 12 is exposed on the inner surface side of the chassis 10 or an integral protrusion from the conductive plate 12 protrudes, the support pieces 13 and 13 for supporting the movable contact plate 3 and a pair of Connection pieces 14, 14, a fixed contact mounting portion 15, connection terminal portions 16, 16 and the like are formed. Note that a fixed contact 71 is caulked and fixed to the fixed contact mounting portion 15, and a connection lead wire 56 to a switching element 55 for speed control is connected to the connection terminal portion 16 by a caulking pin 59.
[0011]
In the illustrated example, two movable contact plates 3 are provided for turning on and off the load and for turning on and off the speed control circuit. Both the movable contact plates 3 and 3 are supported by the support pieces 13 and 13 so as to be attached to the chassis 10 so as to be swingable. The swing directions of 3 and 3 are perpendicular to the opening surface of the chassis 10, and the movable contact plates 3 and 3 need only be inserted and arranged from the opening surface side of the chassis 10. .
[0012]
As shown in FIGS. 1 and 5 (c), the trigger lever 2 having one end of the trigger button 20 is a spring-biased slide that slidably contacts the surfaces of the two movable contact plates 3, 3. It has a child 21, 21 on the side surface, and is slidable in a direction along the opening surface of the chassis 10 with respect to the insulating housing 1, and by a return spring 22 disposed between the side walls of the chassis 10. The trigger button 20 is spring-biased in the protruding direction. A contact spring 23 is fixed to the trigger lever 2. The contact spring 23 is in contact with a pattern on the substrate 5 of a speed control circuit, which will be described later, and constitutes a variable resistor. In the figure, 24 is a dust-proof O-ring.
[0013]
Here, the trigger lever 2 to be sandwiched between the chassis 10 and the cover 11 of the insulating housing 1 is disposed from the opening surface side of the chassis 10 in the same manner as the movable contact plates 3 and 3, and then the cover 11. The trigger lever 2 assembled in this way changes the contact points of the sliders 21 and 21 on the surfaces of the movable contact plates 3 and 3 with the sliding operation. When the contact point crosses the position of the support piece 13, the movable contact plate 3 is swung (seesaw movement) with the support piece 13 as a fulcrum, and the movable contact 30 provided on the movable contact plate 3 and the above-mentioned The contact and separation with the fixed contact 71 are performed.
[0014]
Of the two movable contact plates 3, 3, the support piece 13 serving as a fulcrum of the upper movable contact plate 3 in the figure is more trigger button than the support piece 13 for the other movable contact plate 3. Since the trigger button 20 is pulled and the trigger lever 2 is slid against the return spring 22, the movable contact 30 and the fixed contact 71 of the upper movable contact plate 3 are closed first. The movable contact 30 and the fixed contact 71 of the movable contact plate 3 on the lower side are closed.
[0015]
In this trigger switch, as described above, a change-over switch for changing the rotation direction of the motor and a speed control circuit for the motor are also incorporated. The control circuit is housed on the lower side of the insulating housing 1. In the insulating housing 1, these housing portions are partitioned by a partition wall 17 formed integrally with the chassis 10. A partition wall 17 is also provided between the arrangement portions of the movable contact plates 3 and 3.
[0016]
The changeover switch will be described. This is a contact changeover by turning the changeover lever 4 arranged on the upper end surface of the insulating housing 1, and the changeover lever 4 in this case is as shown in FIG. A boss 40 is provided at one end, an interlocking shaft 41 is provided in the middle, and an engagement piece 42 is provided at the other end. The boss 40 is inserted into a shaft hole 80 formed in the upper surface of the chassis 10 so that the boss 40 is centered. It can be freely rotated.
[0017]
A cam 43 that rotates in conjunction with the switching lever 4 and a sliding body 46 that is slidable in the same direction as the trigger lever 2 are disposed in the upper portion of the insulating housing 1. The cam 43 here is rotatable when its shaft 44 is supported by the chassis 10, and protrudes from the switching lever 4 in one of two notches 45, 45 provided on the peripheral surface. At the same time, the interlocking shaft 41 located in the chassis 10 is engaged through an arc-shaped long hole 81 provided in the chassis 10, and rotates as the switching lever 4 rotates.
[0018]
As shown in FIGS. 5 (b) and 8 (a), the sliding body 46 is provided with a pair of spring-biased contact plates 48 and 48 and a click projection 49 attached thereto. A shaft 47 that engages with the other notch 45 of 43 is provided, and slide operation is performed as the cam 43 rotates. At the time of this sliding, the contact plates 48 and 48 change the short-circuit relationship between the switching contacts formed as the exposed portions of the plurality of conductive plates 12 at the back of the arrangement portion of the sliding body 46. At this time, the click protrusion 49 is clicked by engagement with a click recess 85 formed on the inner surface of the cover 11. 8 shows the state in the neutral position, and FIG. 9 shows the state switched to one side. When the switching lever 4 is moved upward in FIG. 8, the sliding body 46 moves to the right in the figure and moves to the other side. Switch to the side. Note that the engagement piece 42 in the switching lever 4 is positioned on the movement locus of the stopper 28 in the trigger button 20 when in the neutral position, so that the trigger button 20 cannot be pulled, that is, The trigger lever 2 is locked.
[0019]
A substrate 5 and a protective diode 54 are housed in the speed control circuit housing portion on the lower side of the insulating housing 1. The board 5 is attached to the chassis 10 by soldering and connecting the connection terminals 53 at the side edges shown in FIG. 4 from the opening surface side of the chassis 10 to the connection portions 80 of the conductive plate 12 of the chassis 10. It is attached by being caulked to the tip of the rising support piece 14. The switching element 55 in the speed control circuit is externally attached for heat dissipation, and two of the three lead wires 56 led out from the switching element 55 are connected to the connection terminal portions 16 and 16. The The remaining one lead wire 56 is inserted and connected to a connection portion in the substrate 5 through a hole formed in the chassis 10.
[0020]
After the above components are assembled to the chassis 10, the cover 11 is put on the opening surface of the chassis 10, and the cover 11 and the chassis 10 are connected by the hook 75 to close the opening surface of the chassis 10. However, each component such as the movable contact plate 3, the trigger lever 2, the return spring 22, the cam 43, the sliding body 46, the substrate 5, and the diode 54 is connected to the chassis 10 in which the conductive plate 12 is embedded from the opening surface side of the chassis 10. In addition to being attached, even the movable contact plate 3 which is a movable part, since its operation direction is a direction orthogonal to the opening surface, it is only necessary to drop the attachment, Since the cover 11 may be attached from the same direction, the assembling work can be easily performed. In addition, since the assembly direction of the parts is the same in this way, even if the inside of the chassis 10 is divided by the partition wall 17, the assemblability is not deteriorated. Although the trigger lever 2 and the movable contact plate 3 are arranged in the thickness direction of the insulating housing 1, the operation direction of the movable contact plate 3 can be improved. Since the two movable contact plates 3 are set as described above and are arranged in a direction intersecting the thickness direction of the insulating casing 1, the thickness of the insulating casing 1 can be kept thin.
[0021]
FIG. 10 shows a circuit diagram. In the figure, SW is a changeover switch, S1 is an on / off switch composed of the upper movable contact plate 3, and S2 is a speed control on / off switch composed of the lower movable contact plate 3. When the trigger button 20 is pulled, first, the switch S1 is turned on and the motor as a load is energized with the speed control circuit being effective. As the trigger button 20 is pulled, between the contact plate 23 and the substrate 5. When the resistance value of the formed variable resistor changes to increase the rotational speed of the motor, and the switch S2 is turned on, the speed control circuit is bypassed and the motor is energized.
[0022]
The hook 86 formed on the side wall of the cover 11 is for holding the lead wire 56 connected to the switching element 55, and improves handling when the trigger switch is incorporated in an electric device. ing. The corners of the insulating housing 1 are formed with inclined surfaces, as shown in FIG. 11, when the trigger switch is disposed on the grip portion of the electric tool in an oblique direction from the viewpoint of ease of gripping. This is in order to avoid interference with the protruding grip part, and therefore contributes to the narrowing of the grip part. In FIG. 11, M is a motor, G is a reduction gear unit, and B is a battery pack.
[0023]
【The invention's effect】
As described above, in the present invention, the assembly of the trigger lever and the movable contact plate, the attachment of the cover to the chassis, and the like can be performed in the same direction from the opening surface side of the chassis. Since the plates are arranged side by side when viewed from the opening surface, it is easy to assemble the two movable contact plates, and the trigger lever may be assembled so as to overlap the movable contact plates. Therefore, it is excellent in assembling workability, and the insulating housing can be formed small and thin from the swing direction of both movable contact plates and the direction of arrangement of both movable contact plates. When incorporated in the grip part of an electric tool, the grip part can be made thin and easy to grip. [0024]
A switching switch for polarity reversal, a switching lever attached to the insulating housing, a sliding body that is slidable in the same direction as the trigger lever, and that switches a switching contact provided on the conductive plate as the sliding occurs. And a cam that converts the rotation of the lever into a slide of the sliding body, and the sliding body and the cam are disposed above the movable contact plate in the insulating housing, and the opening surface of the chassis has these sliding bodies If the cam is a surface for assembling the cam, the changeover switch can be easily assembled.
[Brief description of the drawings]
FIG. 1 is a front view of a state where an insulating housing cover is removed in one embodiment.
2A is a left side view, FIG. 2B is a front view, and FIG. 2C is a right side view.
FIG. 3 is a plan view.
FIG. 4 is an exploded perspective view.
5A is a perspective view of a switching lever and a cam in a changeover switch, FIG. 5B is an exploded perspective view of a sliding body, and FIG. 5C is an exploded perspective view of a trigger lever.
FIG. 6 is a front view of the chassis.
FIG. 7 is a front view showing a state in which a movable contact plate is attached to a chassis.
FIGS. 8A and 8B are horizontal sectional views of the changeover switch in a neutral position.
FIGS. 9A and 9B are horizontal sectional views of the changeover switch when switched in one direction.
FIG. 10 is a circuit diagram.
FIG. 11 is a cutaway side view showing a state where the electric tool is assembled.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Insulation housing | casing 2 Trigger lever 3 Movable contact plate 10 Chassis 11 Cover 12 Conductive plate 20 Trigger button

Claims (3)

A contact for turning the load on and off and for turning the speed control on and off is provided in an insulating casing comprising a box-like chassis having one side open and a cover attached to the opening of the chassis and closing the opening. A contact point, a variable resistor for speed control and a trigger lever are arranged, and the on / off of both the contacts and the resistance value of the variable resistor by sliding operation of the trigger lever provided with a trigger button at one end located outside the insulating housing A trigger switch that changes
A plurality of conductive plates are attached to the chassis of the insulating housing,
The load on / off contact and the speed control on / off contact are respectively provided on a plurality of fixed contacts provided on the conductive plate and two movable contact plates supported in a swingable manner. Formed with fixed contact and movable contact
The variable resistor for speed control is formed by the pattern on the substrate of the speed control circuit arranged in the insulating housing and the contact spring that is in sliding contact with this pattern.
A support piece provided on a conductive plate different from the conductive plate provided with a fixed contact is disposed in the chassis,
The fixed contact and the support piece are disposed inside the side surface opposite to the side surface where the chassis is open,
The two movable contact plates disposed in the chassis from the opening surface of the chassis are arranged in an arrangement portion partitioned by a partition wall rising from the inside of the side surface on which the fixed contact of the chassis is located, and the opening in the insulating housing. Are arranged in parallel in a direction parallel to the surface and supported by the support piece so as to be swingable in a direction perpendicular to the opening surface of the chassis,
A trigger lever that is incorporated from the opening surface of the chassis to cover the two movable contact plates and is positioned between the movable contact plate and the cover and is slidable in a direction along the opening surface of the chassis. Provided on the side surface of the movable contact plate side is a drive unit for swinging driving of the two movable contact plates,
Further, the trigger lever includes the contact spring on a surface different from a side surface on which the drive unit is provided and facing a pattern on a substrate of a speed control circuit disposed and fixed in an insulating housing. Trigger switch. The changeover switch for polarity reversal is provided, and the changeover switch is slidable in the same direction as the changeover lever attached to the insulating housing and the trigger lever . It consists of a sliding body that switches the switching contact provided on the conductive plate for polarity switching, and a cam that converts the rotation of the switching lever to the sliding of the sliding body,
The sliding body and the cam are arranged at positions different from the movable contact plate when viewed from the opening surface in the chassis, and the opening surface of the chassis is a surface for assembling the sliding body and the cam. The trigger switch according to claim 1, characterized in that:   The cam is rotatably supported, and the notch that engages the interlocking shaft protruding from the switching lever and the shaft protruding from the sliding body that is slidably held by the insulating housing are engaged. The trigger switch according to claim 2, wherein the trigger switch is a disk-shaped member having a notch to be provided on a peripheral portion.

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